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Thermal Comfort Factors and Models

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NatarajaSaiCharan1

The presentation shows the various measures to calculate the thermal comfort in buildings from ASHRAE to IMAC and also provides low energy methods to improve thermal comfort.

Engineering
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z Thermal Comfort in Buildings Green Building and Energy Management. Presented by Nataraja Sai Charan.
z z "That condition of mind that expresses satisfaction with the thermal environment" It is maintained when the heat generated by the human metabolism is allowed to dissipate at a rate that maintains thermal equilibrium in the body. Any heat gain or loss beyond this generates substantial discomfort. What is Thermal Comfort?
z Building Energy consumption by type  Air conditioning accounts for 44% of a building’s energy consumption. This showcases the necessity for the designers to opt for energy efficient space conditioning systems.
z SIX VARIABLES THAT DRIVE OCCUPANT THERMAL COMFORT  The American Society of Heating, Refrigeration and Air- Conditioning Engineers (ASHRAE) identify six variables that predict a person’s thermal comfort.  These can be clubbed under Environmental Factors and Personal Factors.
z PMV(Predictive Mean Vote)  The ASHRAE 55 comfort standard uses a formula to translate these six variables into a single output, called predictive mean vote (PMV) which is a 7 point thermal scale( ranging from -3 cold 0 for Neutral to +3 hot) . A PMV of 0.5 indicates that at those conditions 90% of people in the space will vote they are comfortable.  While using the six variables to determine the thermal comfort zone, there is no range for individual parameters as such under PMV. The value range of one of the parameter depends on rest of the five parameters. The PMV is looked in relation to Predicted Percent Dissatisfied (PPD) which gives the % of people who are comfortable at the given temperature.
z z PMV and PPD
z ASHRAE comfort chart  The comfort zone shifts from left to right based on the clothing, wherein for higher value for clothing the zone shifts to the left.  Even the zone of comfort changes based on the indoor movement of air, in general for higher movement of air the comfort zone shifts to the right.( it is 0.1m/s to 0.2m/s for still air and if more than 05 m/s it is high indoor air movement.)
z z Nominative Appendix A- Activity levels- Metabolic Rates for Typical Tasks.
z
z Formula used for determining the indoor design temperature:  T min @ I cl = ((l cl - 0.5) x T min @ 1 Clo + (1.0 – l cl) x T min @ 0.5 Clo ) / 0.5  T max @ I cl = ((l cl - 0.5) x T max @ 1 Clo + (1.0 – l cl) x T max @ 0.5 Clo ) / 0.5
z
z z
z IACM Indian Adaptive Comfort Model  IACM classifies the building ventilation into three types based on their HVAC system ranging from naturally ventilated to complete Air- Conditioning.
z Contd.  The standard classification is based on the ADAPTIVE thermal comfort model which differentiates the thermal tolerance of occupants accustomed to monotonic temperature (such as air – conditioned places) and people habituated to variation in internal temperatures (such as naturally ventilated structures).  The indoor operative temperature values for different building types (NV, MM & A/c) are pre-calculated for most Indian cities. These are available in Appendix-1, GRIHA v-2015 manual
z Naturally Ventilated building
z Mixed Mode Ventilated buildings  The MM Ventilated buildings takes into consideration the combination of natural ventilation and the availability of air- conditioning when necessary.
z AC buildings- Air Temperature Based Approach  Equation: Indoor Operative Temp. (˚C) = 0.078 * Mean Monthly Outdoor DBT + 23.25  Acceptability Range for Air Conditioned buildings is ± 1.5˚C
z Improving Thermal Comfort In Residential Buildings 1. Proper orientation of Buildings, this reduce the impact of unfavorable weather conditions like solar radiation, driving rain and thunderstorm. 2. Proper Ventilation- proper positioning the windows and opening them create air movement in the house. Walls and vegetation should not be too close to the building in order to avoid diversion of wind away from the openings, thereby reducing air flow within the building. If possible, the rooms should be cross ventilated.
z Contd. 3. Using Shading Devices- use of overhangs or horizontal projections over windows. Double pane windows with tinted glass and glass coated with reflective film should be used for windows instead of steels, wood and zincs. 4. Creation of Microclimate- trees can be planted to create micro- climate that is, small-scale climatic condition at a spot or area or site. 5. Preventing Infiltration – Infiltration can be prevented by sealing the sites of air leaks. This can be achieved by caulking, weatherizing, good workmanship, and replacing some aged parts of buildings. Etc.
z Thank you

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Thermal Comfort Factors and Models

  • 1. z Thermal Comfort in Buildings Green Building and Energy Management. Presented by Nataraja Sai Charan.
  • 2. z z "That condition of mind that expresses satisfaction with the thermal environment" It is maintained when the heat generated by the human metabolism is allowed to dissipate at a rate that maintains thermal equilibrium in the body. Any heat gain or loss beyond this generates substantial discomfort. What is Thermal Comfort?
  • 3. z Building Energy consumption by type  Air conditioning accounts for 44% of a building’s energy consumption. This showcases the necessity for the designers to opt for energy efficient space conditioning systems.
  • 4. z SIX VARIABLES THAT DRIVE OCCUPANT THERMAL COMFORT  The American Society of Heating, Refrigeration and Air- Conditioning Engineers (ASHRAE) identify six variables that predict a person’s thermal comfort.  These can be clubbed under Environmental Factors and Personal Factors.
  • 5. z PMV(Predictive Mean Vote)  The ASHRAE 55 comfort standard uses a formula to translate these six variables into a single output, called predictive mean vote (PMV) which is a 7 point thermal scale( ranging from -3 cold 0 for Neutral to +3 hot) . A PMV of 0.5 indicates that at those conditions 90% of people in the space will vote they are comfortable.  While using the six variables to determine the thermal comfort zone, there is no range for individual parameters as such under PMV. The value range of one of the parameter depends on rest of the five parameters. The PMV is looked in relation to Predicted Percent Dissatisfied (PPD) which gives the % of people who are comfortable at the given temperature.
  • 7. z ASHRAE comfort chart  The comfort zone shifts from left to right based on the clothing, wherein for higher value for clothing the zone shifts to the left.  Even the zone of comfort changes based on the indoor movement of air, in general for higher movement of air the comfort zone shifts to the right.( it is 0.1m/s to 0.2m/s for still air and if more than 05 m/s it is high indoor air movement.)
  • 8. z z Nominative Appendix A- Activity levels- Metabolic Rates for Typical Tasks.
  • 9. z
  • 10. z Formula used for determining the indoor design temperature:  T min @ I cl = ((l cl - 0.5) x T min @ 1 Clo + (1.0 – l cl) x T min @ 0.5 Clo ) / 0.5  T max @ I cl = ((l cl - 0.5) x T max @ 1 Clo + (1.0 – l cl) x T max @ 0.5 Clo ) / 0.5
  • 11. z
  • 12. z z
  • 13. z IACM Indian Adaptive Comfort Model  IACM classifies the building ventilation into three types based on their HVAC system ranging from naturally ventilated to complete Air- Conditioning.
  • 14. z Contd.  The standard classification is based on the ADAPTIVE thermal comfort model which differentiates the thermal tolerance of occupants accustomed to monotonic temperature (such as air – conditioned places) and people habituated to variation in internal temperatures (such as naturally ventilated structures).  The indoor operative temperature values for different building types (NV, MM & A/c) are pre-calculated for most Indian cities. These are available in Appendix-1, GRIHA v-2015 manual
  • 16. z Mixed Mode Ventilated buildings  The MM Ventilated buildings takes into consideration the combination of natural ventilation and the availability of air- conditioning when necessary.
  • 17. z AC buildings- Air Temperature Based Approach  Equation: Indoor Operative Temp. (˚C) = 0.078 * Mean Monthly Outdoor DBT + 23.25  Acceptability Range for Air Conditioned buildings is ± 1.5˚C
  • 18. z Improving Thermal Comfort In Residential Buildings 1. Proper orientation of Buildings, this reduce the impact of unfavorable weather conditions like solar radiation, driving rain and thunderstorm. 2. Proper Ventilation- proper positioning the windows and opening them create air movement in the house. Walls and vegetation should not be too close to the building in order to avoid diversion of wind away from the openings, thereby reducing air flow within the building. If possible, the rooms should be cross ventilated.
  • 19. z Contd. 3. Using Shading Devices- use of overhangs or horizontal projections over windows. Double pane windows with tinted glass and glass coated with reflective film should be used for windows instead of steels, wood and zincs. 4. Creation of Microclimate- trees can be planted to create micro- climate that is, small-scale climatic condition at a spot or area or site. 5. Preventing Infiltration – Infiltration can be prevented by sealing the sites of air leaks. This can be achieved by caulking, weatherizing, good workmanship, and replacing some aged parts of buildings. Etc.